The DFA must have the following four properties:
The DFA has N nodes
Each node has 2 outgoing transitions.
Each node is reachable from every other node.
The DFA is chosen with perfectly uniform randomness from all possibilities
This is what I have so far:
- Start with a collection of N nodes.
- Choose a node that has not already been chosen.
- Connect its output to 2 other randomly selected nodes
- Label one transition 1 and the other transition 0.
- Go to 2, unless all nodes have been chosen.
- Determine if there is a node with no incoming connections.
- If so, steal an incoming connection from a node with more than 1 incoming connection.
- Go to 6, unless there are no nodes with no incoming connections
However, this is algorithm is not correct. Consider the graph where node 1 has its two connections going to node 2 (and vice versa), while node 3 has its two connection going to node 4 (and vice versa). That is something like:
1 <==> 2
3 <==> 4
Where, by <==> I mean two outgoing connections both ways (so a total of 4 connections). This seems to form 2 cliques, which means that not every state is reachable from every other state.
Does anyone know how to complete the algorithm? Or, does anyone know another algorithm? I seem to vaguely recall that a binary tree can be used to construct this, but I am not sure about that.